原子能科学技术
原子能科學技術
원자능과학기술
ATOMIC ENERGY SCIENCE AND TECHNOLOGY
2014年
1期
23-27
,共5页
廖其龙%廖春娟%向光华%潘社奇%牟涛
廖其龍%廖春娟%嚮光華%潘社奇%牟濤
료기룡%료춘연%향광화%반사기%모도
铁磷酸盐玻璃%高放废物%固化体%玻璃陶瓷
鐵燐痠鹽玻璃%高放廢物%固化體%玻璃陶瓷
철린산염파리%고방폐물%고화체%파리도자
iron phosphate glass%high level radioactive waste%wasteform%glass-ceramic
本文研究了Al2O3掺量对独居石玻璃陶瓷固化体结构和化学稳定性的影响。用傅里叶变换红外光谱(FTIR)和X射线衍射(XRD)方法表征样品结构,用溶解速率法和全谱直读等离子体发射光谱(ICP-OES)分别测定样品在浸出液中浸泡后的失重速率及各元素的浸出浓度,以研究固化体的化学稳定性。研究结果表明:当Al2O3掺量为4%(摩尔分数)时,在980℃下保温3h得到的独居石玻璃陶瓷固化体具有较高的化学稳定性,浸泡14d时其质量浸出率最低,约为8.1ng/(cm2·min),其中Ce、La元素在浸出液中均未检出;固化体的主晶相为独居石,结构中含有大量稳定的正磷酸基团[PO4]3-和少量的焦磷酸基团[P2O7]4-,不存在偏磷酸基团[PO3]-。
本文研究瞭Al2O3摻量對獨居石玻璃陶瓷固化體結構和化學穩定性的影響。用傅裏葉變換紅外光譜(FTIR)和X射線衍射(XRD)方法錶徵樣品結構,用溶解速率法和全譜直讀等離子體髮射光譜(ICP-OES)分彆測定樣品在浸齣液中浸泡後的失重速率及各元素的浸齣濃度,以研究固化體的化學穩定性。研究結果錶明:噹Al2O3摻量為4%(摩爾分數)時,在980℃下保溫3h得到的獨居石玻璃陶瓷固化體具有較高的化學穩定性,浸泡14d時其質量浸齣率最低,約為8.1ng/(cm2·min),其中Ce、La元素在浸齣液中均未檢齣;固化體的主晶相為獨居石,結構中含有大量穩定的正燐痠基糰[PO4]3-和少量的焦燐痠基糰[P2O7]4-,不存在偏燐痠基糰[PO3]-。
본문연구료Al2O3참량대독거석파리도자고화체결구화화학은정성적영향。용부리협변환홍외광보(FTIR)화X사선연사(XRD)방법표정양품결구,용용해속솔법화전보직독등리자체발사광보(ICP-OES)분별측정양품재침출액중침포후적실중속솔급각원소적침출농도,이연구고화체적화학은정성。연구결과표명:당Al2O3참량위4%(마이분수)시,재980℃하보온3h득도적독거석파리도자고화체구유교고적화학은정성,침포14d시기질량침출솔최저,약위8.1ng/(cm2·min),기중Ce、La원소재침출액중균미검출;고화체적주정상위독거석,결구중함유대량은정적정린산기단[PO4]3-화소량적초린산기단[P2O7]4-,불존재편린산기단[PO3]-。
The effects of monazite glass-ceramic wasteforms containing different Al2O3 contents on their structures and properties were investigated .The structure of the glass-ceramic wasteforms was analyzed by Fourier transform infrared (FTIR) and X-radiation diffraction (XRD ) . The chemical stability of monazite glass-ceramic wasteforms was measured by dissolution rate and inductively coupled plasma optical emission spectrome-try (ICP-OES) method .The results show that the chemical stability of monazite glass-ceramic wasteforms with 4% (mole fraction) Al2O3 and made at 980 ℃ for 3 h is opti-mal .T he 14 d leaching rate of monazite glass-ceramic wasteforms is about 8.1 ng/(cm2 · min) ,which is the lowest in all the samples .The main crystalline phase of the as-prepared glass-ceramic wasteforms is monazite .There are a large number of [PO4 ]3 -groups ,a small number of [P2O7 ]4 - groups ,and no [PO3 ]- groups in the wasteforms .
